RU2015136851A - DEVICE AND METHOD FOR PROCESSING A CODED SIGNAL AND CODER AND METHOD FOR PROCESSING A CODED SIGNAL - Google Patents

Claims (70)

1. A device for processing an encoded signal (110), wherein the encoded signal comprises an encoded audio signal having information regarding tone delay or tone gain, and a parameter (101) for controlling a low-frequency post-filter of sound, comprising: an audio signal decoder (110) for decoding an encoded audio signal using information regarding tone delay or tone gain to obtain a decoded audio signal (103); a controlled low-frequency post-filter (112) for filtering the decoded audio signal (103) to obtain a processed signal (113), while the low-frequency controlled post-filter (112) has a variable characteristic of the low-frequency post-filter controlled by control parameter (101) postfilter of low sound frequencies; and a controller (114) for setting a variable characteristic of the postfilter of low sound frequencies in accordance with the parameter (101) for controlling the postfilter of low sound frequencies included in the encoded signal (102). wherein the low-frequency postfilter (112) comprises a filter device (209) comprising a long-term prediction filter (204), a gain stage (206), a signal manipulator (208), and a subtractor (202) for subtracting the output of the filter device (209) from a decoded audio signal (103), wherein the parameter (101) for controlling the low-frequency post-filter contains the quantized gain value for the gain stage (206), and wherein the controller (114) is configured to set the gain stage (206) in accordance with the quantized gain value, wherein the controller (114) comprises a block (210) for decoding or retrieving tone delay information, and wherein the controller (114) is configured to set a filter (204) long-term prediction in accordance with said delay tone, while the controller is configured to extracting (500) the quantized gain value from the encoded signal to obtain a parameter (101) for controlling the postfilter of low sound frequencies, scaling (504) the tone gain by a constant factor less than 1 and greater than 0 to obtain a scaled tone gain, and computing (506) the gain stage parameter using scaled tone gain and using the quantized gain value. 2. The device according to claim 1, wherein the controllable low-frequency post-filter (112) is configured to operate in a time domain, wherein the signal manipulator (208) is implemented as a low-pass filter, a universal filter, a band-pass filter or a high-pass filter, and wherein the control parameter of the low-frequency postfilter contains, in addition to the gain value for the gain stage (206), filter characteristic information for the signal manipulator (208), and wherein the controller (114) is configured to set the signal manipulator (208) in accordance with the information regarding the filter characteristic. 3. The device according to claim 1, wherein the controllable low-frequency post-filter (112) is configured to operate in a spectral region, therewith, a first time-spectrum converter (300) is provided for generating a spectral representation of the decoded audio signal (103), wherein the controlled low-frequency post-filter (112) comprises a second time-spectrum converter (302) to generate subband signals for different subbands, and a signal manipulator (304) for each subband, wherein the signal manipulator for the subband is configured to to perform a weighing operation using a weighting factor (310, 312, 314, 316, 318), and the individual weighting factors (310-318) for the signal manipulators (304) for the individual subbands together realize the characteristic of the low-pass filter, the characteristic of the universal filter, a band-pass filter characteristic or a high-pass filter characteristic, wherein the subtractor is configured to subtract the output of the filter device for the subband from the corresponding subband generated by the first a time (spectrum) converter (300) to generate a subtracted subband signal; and a spectrum-time converter (306) in order to convert the subtracted subband signal into a time domain to obtain a processed signal (113); the control parameter of the low-frequency post-filter contains the gain value for the gain stage (206) or filter characteristic information for the signal manipulator (208). 4. The device according to claim 1, in which the parameter for controlling the low-frequency post-filter is quantized with respect to information regarding tone delay or tone amplification included in the encoded audio signal, and wherein the controller (114) is configured to set a variable characteristic of the low-frequency post-filter in accordance with information regarding the tone delay or information regarding the tone gain and the low-frequency post-filter control parameter. 5. The device according to claim 4, in which the controller (114) is configured to set a variable characteristic of the low-frequency post-filter based on the product of information regarding tone delay or tone amplification and the characteristic (506) of the low-frequency post-filter. 6. The device according to claim 5, in which the controller is configured to calculate (506) the gain for the variable gain stage using the product (504) between the control parameter of the low-frequency post-filter and gain (502) tones and a constant coefficient less than 1 and greater than 0. 7. The device according to claim 1, in which the controlled low-frequency postfilter (112) comprises a long-term prediction filter (204) and a variable gain stage (206), wherein the long-term prediction filter (204) is controlled by information regarding the tone gain included in encoded audio signal, and wherein the controller (114) is configured to set the gain of the variable gain stage using the low-frequency post-filter control parameter (101) alone or in combination with information regarding the tone gain. 8. The device according to claim 7, in which a low-pass filter (208) or a combination of a time-spectrum converter (302) and a sub-band weighting unit (304) are connected to the output of the variable amplification stage (206) or the output of the long-term prediction filter (204). 9. An encoder for generating an encoded signal (608), comprising: an audio signal encoder (600) for generating an encoded audio signal (601) having information regarding tone amplification or tone delay from the original audio signal (603); a decoder (602) for decoding the encoded audio signal to obtain a decoded audio signal; a processor (604) in order to calculate a parameter (607) for controlling the low-pass post-filter satisfying the optimization criterion using the decoded audio signal (605) and the original audio signal (603); and an output interface (606) for outputting an encoded signal (608) having an encoded audio signal (601) containing information regarding a tone gain or tone delay and a parameter (607) for controlling the low-frequency post-filter, wherein the processor (604) also comprises a quantizer (708) in order to quantize the control parameter of the low-frequency post-filter to one of a predetermined the number of quantization indices, and wherein the processor (604) is configured to calculate the control parameter of the low-pass post-filter so that the optimization criterion is satisfied for the quantized control parameter of the low-sound post-filter. 10. The encoder according to claim 9, in which the processor (604) is configured to calculate a low-frequency post-filter control parameter (607) such that the signal-to-noise ratio between the original audio signal (603) and the decoded and post-filtered low-frequency audio signal has been minimized. 11. The encoder according to claim 9, in which the processor (604) comprises a long-term prediction filter (204), a low-pass filter (208), or a gain stage (206), and wherein the processor (604) is configured to generate, as a parameter (607) for controlling the low-frequency post-filter, a tone delay parameter, low-pass filter characteristic information, or a gain stage parameter. 12. The encoder according to claim 9, in which the quantizer (708) is configured to quantize the control parameter of the postfilter low sound frequencies relative to information regarding the gain of the tone or information regarding the delay of the tone. 13. The encoder according to claim 12, in which the quantizer (708) is configured to quantize the control parameter of the low-pass post-filter using the following equation:

where index is the quantized parameter (607) for controlling the postfilter of low sound frequencies, while min is the minimum function, while max is the maximum function, and k is the number of bits used to represent the index, and a _min is the minimum relative quantized gain, while a _max is the maximum relative quantized gain, while

is a non-quantized parameter for controlling the postfilter of low sound frequencies, while g _ltp is information regarding tone amplification, and c is a constant coefficient greater than 0 and less than 1. 14. The encoder according to claim 9, in which the processor (604) is configured to calculate (910) SNR values for a plurality of quantized or non-quantized control parameters of the low-pass post-filter and select (920) a quantized or non-quantized control parameter of the low-sound post-filter leading to an SNR value that is among the five highest calculated SNR values, and wherein the output interface (606) is configured to input the selected quantized or non-quantized parameter for controlling the postfilter of low sound frequencies into the encoded signal (608). 15. A method for processing an encoded signal (110), the encoded signal comprising an encoded audio signal having information regarding tone delay, tone amplification, and a low-frequency post-filter control parameter (101), comprising: decoding (110) the encoded audio signal using information regarding tone delay or tone gain to obtain a decoded audio signal (103); filtering (112) the decoded audio signal (103) to obtain the processed signal (113) using a controllable low-pass postfilter (112) having a variable characteristic of the low-pass postfilter controlled by a low-pass postfilter control parameter (101); and setting (114) a variable characteristic of the postfilter of low sound frequencies in accordance with a parameter (101) of controlling the postfilter of low sound frequencies included in the encoded signal (102), wherein the low-frequency postfilter (112) comprises a filter device (209) comprising a long-term prediction filter (204), a gain stage (206), a signal manipulator (208), and a subtractor (202) for subtracting the output of the filter device (209) from a decoded audio signal (103), wherein the parameter (101) for controlling the low-frequency post-filter contains the quantized gain value for the gain stage (206) or filter characteristic information for the signal manipulator (208), and wherein the installation (114) comprises setting the amplification stage (206) in accordance with the quantized gain value or setting the signal manipulator (208) in accordance with information regarding the filter characteristic, wherein the installation (114) comprises decoding or extracting information about the delay of the tone and wherein the long-term prediction filter (204) is set in accordance with the said delay of the tone, the installation contains extracting (500) the quantized gain value from the encoded value to obtain a parameter (101) for controlling the postfilter of low sound frequencies, scaling (504) the tone gain by a constant factor less than 1 and greater than 0 to obtain a scaled tone gain, and calculating (506) the gain stage parameter using the scaled tone gain and using the quantized gain value. 16. A method for generating an encoded signal (608), comprising: generating (600) an encoded audio signal (601) having information regarding tone gain or tone delay from the original audio signal (603); decoding (602) the encoded audio signal to obtain a decoded audio signal; the calculation (604) of the parameter (607) for controlling the postfilter of low sound frequencies satisfying the optimization criterion, using the decoded audio signal (605) and the original audio signal (603); and output (606) of an encoded signal (608) having an encoded audio signal (601) containing information regarding tone amplification or tone delay and a parameter (607) for controlling the postfilter of low sound frequencies, wherein the calculation (604) further comprises quantizing the control parameter of the postfilter of low sound frequencies into one of a predetermined number of quantization indices, and the control parameter of the low-frequency post-filter is calculated so that the optimization criterion is satisfied for the quantized control parameter of the low-sound post-filter. 17. A computer program for executing, when executed on a computer or processor, the method of claim 15 or the method of claim 16.